Differential response to retinoic acid of Syrian hamster embryo fibroblasts expressing v-src or v-Ha-ras oncogenes

It has been shown that treatment of many but not all tumor cell lines with retinoids affects cell proliferation and expression of the transformed phenotype. To determine whether the response of the tumor cell to retinoids is influenced by specific oncogenes activated in the cell, we studied the action of these agents in the immortal, nontumorigenic Syrian hamster embryo cell lines DES-4 and 10W transfected with either v-Ha-ras or v-src oncogenes. In this paper we show that in transformed DES-4 cells expressing v-src, retinoic acid inhibited anchorage-independent growth, reduced saturation density, and inhibited the induction of ornithine decarboxylase by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate. In contrast, retinoic acid enhances the expression of the transformed phenotype in DES-4-derived cells that express v-Ha-ras. In these cells retinoic acid increases the number and the average size of colonies formed in soft agar. Moreover, retinoic acid enhances ornithine decarboxylase activity and acts in a synergistic fashion with 12-O-tetradecanoylphorbol-13-acetate. These results indicate that oncogenes activated in cells can indeed influence the response of cells to retinoids. Retinoic acid does not appear to alter the levels of pp60src or p21ras proteins in these cells, suggesting that retinoic acid does not affect the synthesis of these oncogene products. Furthermore, retinoic acid does not affect the protein kinase activity of pp60src. Transformed cell lines derived from 10W cells responded differently, indicating that the presence of a specific oncogene is not the only factor determining the response to retinoids. Possible mechanisms by which retinoic acid may interfere with the expression of the oncogene products are discussed.

Detection of an intracellular transforming protein (v-Ki-ras p21) using the flow activated cell sorter (FACS)

The transforming protein coded for by the Ki-ras oncogene, v-p21, localizes at the cytoplasmic face of the plasma membrane. A method is presented whereby the appearance of v-p21 in Kirsten murine sarcoma virus-transformed cells can be detected by flow cytometry, using a monoclonal antibody to v-p21 and methods modified from immunofluorescence microscopy. The method is sufficiently sensitive to differentiate between cellular and viral p21 levels, to detect small subpopulations of virus-transformed cells, and to monitor changes in p21 expression in response to physiologic variables. The method provides a rapid, quantitative means to investigate the expression of an intracellular transforming protein in heterogeneous cell populations.

The effect of Mg2+ on the guanine nucleotide exchange rate of p21N-ras

There is growing evidence that the protein products of the ras gene family, p21ras, can couple growth factor receptors to intracellular second messenger production and in particular to phosphoinositol lipid turnover. So far, however, there has been no direct proof that the ras proteins function as typical regulatory G proteins. We show here that the human p21N-ras protein, isolated from an Escherichia coli expression system, can exist as a stable GDP complex which exchanges very slowly with exogenous GTP, the half-life of the p21N-ras X GDP complex being around 20 min. However, in low Mg2+ (0.5 microM) the exchange rate is dramatically increased and the half-life of the p21N-ras X GDP complex is less than 30 s. Furthermore, in low Mg2+, the relative binding affinity of the protein for GTP as compared to GDP is increased 10-fold. The effect of low Mg2+ on the exchange rate of both normal and oncogenic mutant p21ras molecules is identical. We propose that removal of Mg2+ in vitro induces a similar conformational change to stimulation in vivo. The properties described here are consistent with a G protein-like activity for p21N-ras.

The oncogenic activation of human p21ras by a novel mechanism

Single amino acid changes were introduced into normal (non-oncogenic) and activated forms of the human H-ras protein at a position (residue 116) proposed on structural grounds to represent a contact site with guanine nucleotides. Substitutions at this site could significantly reduce the ability of both forms to bind and hydrolyze guanosine 5'-triphosphate; these substitutions, however, did not necessarily diminish the transforming capacity of activated derivatives. One substitution that severely impairs these functions activated the transforming potential of the otherwise normal polypeptide.

v-ras genes from Harvey and BALB murine sarcoma viruses can act as initiators of two-stage mouse skin carcinogenesis

Activated Harvey murine sarcoma virus ras genes were introduced into epidermal cells in vivo by direct application of retroviruses to mouse skin. Subsequent treatment with the tumor promoter 12-O-tetradecanoyl-phorbol-13-acetate (TPA) induced benign papillomas, some of which progressed to invasive carcinomas. Initiation with virus was irreversible for at least 4 months, since TPA treatment after this latency period produced papillomas within 4 weeks. Analysis of viral integration sites showed that carcinomas are clonal in origin. Both papillomas and carcinomas express virus-specific ras mRNA and the viral form of ras P21 protein. The results show that activated ras genes can replace chemical carcinogens in initiation of mouse skin carcinogenesis. This system presents a novel approach to in vivo analysis of the biological role of oncogenes in epithelial tumorigenesis.

Experimental metastasis in nude mice of NIH 3T3 cells containing various ras genes

These studies have compared the ability of NIH 3T3 cells containing different ras oncogenes to form tumor nodules in the lungs of nude mice after tail vein injection. The genes studied include the normal cellular and bladder tumor ras genes, recombinant viral/cellular ras genes, recombinant yeast/mammalian ras genes, and a constructed gene with yeast RAS1 sequences significantly modified by deletions and an oncogenic mutation. The results show that NIH 3T3 cells containing these genes readily form lethal tumor nodules in the lungs of nude mice after tail vein injection. No control NIH 3T3 cells formed lung tumors within 66 days. Although there were some quantitative differences in the potencies of the various lines, the striking conclusion is that NIH 3T3 cells transformed by either normal or activated mammalian ras genes form approximately equal numbers of experimental lung metastases. In addition, cells transformed by a significantly modified yeast RAS1 gene containing a purposefully introduced oncogenic mutation were also equally active in this assay. The amount of p21 (the 21-kDa protein encoded by ras), as measured by immunoprecipitation, was approximately the same in the parent lines before injection as in the tumors recovered after injection. This result indicates that there is no selection for metastatic sublines containing larger quantities of p21. Transfection of EJ bladder tumor ras DNA into NIH 3T3 cells followed by injection 3 days later into the tail veins of nude/beige mice indicated that the EJ ras gene can confer a metastatic phenotype within 3.5 cell generations without selection or clonal growth in vitro. Thus, the biochemical changes initiated after introduction of the c-Ha-ras gene into NIH 3T3 cells result in the almost immediate acquisition of phenotypes necessary for experimental metastasis.

Expression of p21 proteins in Escherichia coli and stereochemistry of the nucleotide-binding site

v-Ha-ras encoded p21 protein (p21V), the cellular c-Ha-ras encoded protein (p21C) and its T24 mutant form p21T were produced in Escherichia coli under the control of the tac promoter. Large amounts of the authentic proteins in a soluble form can be extracted and purified without the use of denaturants or detergents. All three proteins are highly active in GDP binding, GTPase and, for p21V, autokinase activity. Inhibition of [3H]GDP binding to p21C by regio- and stereospecific phosphorothioate analogs of GDP and GTP was investigated to obtain a measure of the relative affinities of the three diphosphate and five triphosphate analogs of guanosine. p21 has a preference for the Sp isomers of GDP alpha S and GTP alpha S. It has low specificity for the Sp isomer of GTP beta S. Together with the data for GDP beta S and GTP gamma S these results are compared with those obtained for elongation factor (EF)Tu and transducin. This has enabled us to probe the structural relatedness of these proteins. We conclude that p21 seems to be more closely related to EF-Tu than to transducin.

Analysis of ras oncogene products by two-dimensional gel electrophoresis: evidence for protein families with distinctive molecular forms

Protein products of the ras family of oncogenes were immunoprecipitated by an anti-p21 monoclonal antibody, separated by two-dimensional gel electrophoresis and subsequently detected by western immunoblot analysis using the same anti-p21 monoclonal antibody as a probe. Using this method, a 21 kDa oncogene protein (p21) was detected and characterized in cell lines containing Harvey (Ha), Kirsten (Ki), neuroblastoma (N), or cellular (proto) ras genes. The ras gene products from all cell types occurred with multiple forms differing in size, charge or in both parameters. Transforming ras oncogene proteins occurred in easily identifiable groups that were different from each other in molecular weight and charge, were distinctive for each ras gene type and were different from cellular ras equivalents. Similar, but not identical, family groups occurred in different cell types containing the same oncogene. The reproducible occurrence of unpredicted p21 forms suggests that previously unreported post-translational processing steps may be associated with the synthesis of certain oncogene products. This immunoprecipitation/two-dimensional gel/western blot technique is a simple method for the identification and characterization of p21 gene products.

Characterization of G1 transit induced by the mitogenic-oncogenic viral Ki-ras gene product

NRK rat kidney cells infected with a temperature-sensitive mutant of the Kirsten sarcoma virus (ts371) were transformed at 36 degrees C but were phenotypically nontransformed at 41 degrees C because of the abnormal thermolability of the oncogenic 21-kilodalton product of the viral Ki-ras gene. Thus tsK-NRK cells were rendered quiescent in a G0-G1 state by a 48-h incubation in serum-free medium at the nonpermissive, p21-inactivating temperature of 41 degrees C. The serum-starved cells could then be stimulated to transit G1 either as nontransformed cells by adding serum at 41 degrees C or as transformed cells by lowering the temperature to a p21-activating 36 degrees C. The viral p21 protein was as effective as serum in stimulating tsK-NRK cells to transit G1 and to start replicating DNA. While p21 effectively stimulated cells to transit G1 even in unconditioned, serum-free medium, they still needed cell-derived conditioning factors to subsequently divide. The p21 protein also enabled the cells to transit G1 in spite of an extracellular Ca2+ deficiency that inhibited the G1 transit of serum-stimulated cells. p21 activity was needed to stimulate both early and late G1 events. In contrast to serum, p21 did not stimulate total RNA or protein synthesis, but some RNA and protein synthesis must have been needed for the p21-driven G1 transit because it could be stopped by actinomycin D or cycloheximide.

Monoclonal antibody Y13-259 recognizes an epitope of the p21 ras molecule not directly involved in the GTP-binding activity of the protein

The p21 products of ras proto-oncogenes are GTP-binding proteins with associated GTPase activity. Recent studies have indicated that ras p21 may be required for the initiation of normal cell DNA synthesis, since microinjection of a monoclonal antibody, Y13-259, blocks serum stimulation of DNA synthesis in quiescent cell cultures (L. S. Mulcahy, M.R. Smith, and D. W. Stacey, Nature [London] 313:241-243, 1985). We localized the structural domain within the p21 molecule recognized by the Y13-259 monoclonal antibody. By analysis of a series of bacterially expressed p21 deletion mutants, the monoclonal antibody was found to interact with a region between positions 70 and 89 in the p21 amino acid sequence. By comparison of the coding sequences of different p21 proteins recognized by this monoclonal antibody, a highly conserved amino acid region between positions 70 and 81 was found to be the most likely site for the epitope detected by the Y13-259 antibody. This monoclonal antibody was further shown not to interfere directly with in vitro biochemical functions of the molecule, including GTP binding, GTPase, and autokinase activities.

Deletion mutants of Harvey ras p21 protein reveal the absolute requirement of at least two distant regions for GTP-binding and transforming activities

Deletions of small sequences from the viral Harvey ras gene have been generated, and resulting ras p21 mutants have been expressed in Escherichia coli. Purification of each deleted protein allowed the in vitro characterization of GTP-binding, GTPase and autokinase activity of the proteins. Microinjection of the highly purified proteins into quiescent NIH/3T3 cells, as well as transfection experiments utilizing a long terminal repeat (LTR)-containing vector, were utilized to analyze the biological activity of the deleted proteins. Two small regions located at 6-23 and 152-165 residues are shown to be absolutely required for in vitro and in vivo activities of the ras product. By contrast, the variable region comprising amino acids 165-184 was shown not to be necessary for either in vitro or in vivo activities. Thus, we demonstrate that: (i) amino acid sequences at positions 5-23 and 152-165 of ras p21 protein are probably directly involved in the GTP-binding activity; (ii) GTP-binding is required for the transforming activity of ras p21 and by extension for the normal function of the proto-oncogene product; and (iii) the variable region at the C-terminal end of the ras p21 molecule from amino acids 165 to 184 is not required for transformation.

Immunocytochemical localization of RasHa p21 in normal and neoplastic cells in fixed tissue sections from Harvey sarcoma virus-infected mice

An affinity purified sheep IgG antibody to a 20 amino acid peptide from the carboxyterminal end of RasHa p21 was used to localize RasHa p21 on fixed tissue sections of Harvey sarcoma (HaSV) virus-infected mice by the avidin-biotin-peroxidase immunocytochemical technique. Control sera included immune sheep sera absorbed with the peptide, preimmune sheep sera and a goat polyclonal antibody to Rauscher leukemia virus p30. Neonatal BALB/c mice were injected with HaSV/Moloney leukemia virus (MoLV), MoLV alone or buffer. Short-term fixation in Bouin's fixative was found to be the most effective method for demonstrating p21 in fixed tissue sections. RasHa p21 was found in 5-80% of the induced sarcoma cells, depending on the tissue fixative and antibody dilution. The antigen was localized to the cell membrane and in the cytoplasm. Tumors induced by NIH 3T3 cells transformed with cellular Ha-ras oncogenes had less than 1% immunoreactive tumor cells. Splenic erythroblasts in HaSV-induced erythroblastosis contained membrane antigen as did some reticular cells in lymph nodes draining the sarcomas. Normal tissues of virus-inoculated mice, uninoculated controls or fetuses and selected naturally occurring or induced liver tumors of mice, chemically induced skin tumors of mice, N-nitrosomethylurea-induced mammary tumors of rats, and naturally occurring tumors of F344/NCr rats did not contain immunoreactive p21. Thus, with the use of affinity purified IgG sheep polyclonal antibody to a peptide in RasHa p21, we were able to demonstrate RasHa p21 in tumors and other cells. The degree of immunoreactivity was related to the expected level of p21 expression.

31P-NMR spectra of the Ha-ras p21.nucleotide complexes

Phosphorus nuclear magnetic resonance spectra of the Ha-ras oncogene product p21 and its nucleotide complexes have been obtained. It is shown that the 31P nuclear magnetic resonance spectra of a number of nucleotide-enzyme complexes show some common features. In particular, the chemical shift values of the beta-phosphorus resonance of enzyme-bound NTP and NDP (N = A, G) of hydrolases exhibit a downfield shift virtually identical for myosin, elongation factor Tu, and the Ha-ras oncogene product p21. This suggests that the stereochemistry around the beta-phosphorus might be similar in these compounds.

The human T24 Ha-ras1 oncogene: a study of the effects of overexpression of the mutated ras gene product in rodent cells

The human T24 Ha-ras1 oncogene was inserted into a high expression vector which carried the aminoglycoside phosphotransferase (aph) gene as a selectable market. This recombinant was introduced into early passage rodent cells by the calcium-phosphate technique. Under the selection pressure of geneticin foci appeared of morphologically altered cells which became immortalized, anchorage independent and tumourigenic. These cells overexpressed the p21 product of the T24 Ha-ras1 oncogene. It was concluded that p21 is not toxic to these cells. In reconstruction experiments, where transformed and normal cells were plated together at various cell densities, normal cells, at high cell density and in the absence of selection, suppressed the transformed phenotype.

The cloning and characterization of a RAS gene from Schizosaccharomyces pombe

We have cloned and determined the complete nucleotide sequence of a RAS gene from the yeast Schizosaccharomyces pombe (SP-RAS). The putative RAS protein of 214 amino acids is encoded by two noncontiguous reading frames separated by an intron of 86 bp. The SP-RAS gene product shares extensive homology with the proteins of the Saccharomyces cerevisiae (SC), Dictyostelium, Drosophila, and human RAS genes in its N-terminal region but not in its C-terminal region. The extended C-terminal regions found in the SC-RAS genes have no counterpart in the SP-RAS gene. Thus the RAS genes of these two yeasts are structurally quite distinct. The SP-RAS sequence was expressed in vivo.

Direct identification of palmitic acid as the lipid attached to p21ras

p21v-H-ras, the transforming protein of Harvey murine sarcoma virus, contains a covalently attached lipid. Using thin-layer chromatography, we identified the acyl group as the 16-carbon saturated fatty acid palmitic acid. No myristic acid was detected in fatty acids released from in vivo-labeled p21v-H-ras. The p21v-K-ras protein encoded by Kirsten sarcoma virus was also palmitylated. The processing and acylation of p21v-K-ras however differed from that of p21v-H-ras. Three forms of [3H]palmitic acid-labeled p21ras proteins were detected in Kirsten sarcoma virus-transformed cells. This contrasted with Harvey sarcoma virus, in which two forms of p21v-H-ras contained palmitic acid. Analysis by partial proteolysis of p21v-H-ras labeled with [3H]palmitic acid suggested that all of the lipid found in intact p21v-H-ras was located in the C-terminal region. On sodium dodecyl sulfate-polyacrylamide gels, p21v-H-ras labeled with [3H]palmitic acid migrated slightly ahead of the majority of p21v-H-ras. Of the mature forms of p21v-H-ras, apparently only a subpopulation contains palmitic acid.

Expression of viral p21ras during acquisition of a transformed phenotype by rat adrenal cortex cells infected with Kirsten murine sarcoma virus

Rat adrenal cortex cells infected with Kirsten murine sarcoma virus acquire a transformed phenotype in a progressive fashion. The expression of the viral p21ras does not appear to correlate with the degree of transformation of the adrenocortical cells but rather is produced at similar levels as the culture becomes transformed. This indicates that the expression of an oncogenic form of p21ras is not of itself sufficient to completely transform rat adrenal cortex cells.

Infection of immune mast cells by Harvey sarcoma virus: immortalization without loss of requirement for interleukin-3

Cells from adult mouse spleens were cultured in WEHI-3 cell-conditioned medium, which contains the lymphokine interleukin-3 (IL-3). Under these conditions, cells grow well for 4 to 8 weeks; the cultures contain a variety of cell types for the first 1 to 2 weeks but are subsequently composed largely of immune mast cells. We found that infection of these cultures with Harvey sarcoma virus (HaSV) profoundly enhanced the growth potential of the cells, resulting in the reproducible isolation of long-term cell lines. These HaSV-infected cells appeared to be phenotypically identical to the immune mast cells found in uninfected cultures as determined by biochemical, immunological, and cytological tests. Although the cells expressed protein p21Ha-ras at levels similar to those in HaSV-transformed fibroblasts, they continued to require IL-3 for growth in vitro. Similar IL-3-dependent, long-term mast cell lines were also cultured from the enlarged spleens present in HaSV-infected mice. These results suggest that high-level expression of an activated Ha-ras oncogene enhances growth in these cells, perhaps by stimulating the progression of the cells into S, without affecting differentiation or altering the requirements for normal growth factor.

Production of oncogene-specific proteins and human T-cell leukemia (lymphotropic) retrovirus (HTLV-I) envelope protein in bacteria and its potential for use in human cancers and seroepidemiological surveys

The oncogenes coding for the Harvey murine sarcoma virus p21ras protein as well as those coding for myc, myb, and mht products were fused to the amino-terminal portion of the bacteriophage lambda cII gene on the expression vector pJL6. In addition two regions of the gene for the human T-cell leukemia virus subgroup I (HTLV-I) envelope were expressed in our bacterial system. Each of 11 human sera tested that had been shown to contain antibodies to HTLV-I or -II by an enzyme-linked immunosorbent assay recognized the bacterially synthesized envelope proteins. No reaction was detected when 17 control sera were tested. This system will be useful for large-scale seroepidemiological surveys for HTLV-I and related human retroviruses. The other oncogene products expressed in our bacterial vector system also demonstrated specific immunoreactivities. In addition to this feature the bacterial ras protein was seen to bind guanosine diphosphate and was capable of autophosphorylation. Taken together these data suggest that the proteins produced with high efficiency by the bacterial expression system can be immunologically recognized as antigens and can in part perform some of their associated biochemical functions.

p21ras. Heterogeneous localization in transformed cells

The cellular targets for the Kirsten murine sarcoma virus (KiMSV)-transforming protein, p21ras, are unknown. Other studies have indicated that the mature form of p21 is distributed diffusely on the cytoplasmic face of the plasma membrane. However, after fixation without buffer washes, indirect immunofluorescent staining of sparse cultures revealed a particularly well preserved cellular architecture and a strikingly heterogeneous subcellular distribution of p21 in transformed normal rat kidney (NRK) cells but not in their untransformed counterparts. The transformed cells included A KiMSV-transformed NRK line. NRK cells newly transformed with KiMSV. A temperature-sensitive (ts) KiMSV-transformed NRK line. An uninfected, spontaneously transformed NRK line in which p21 was neither phosphorylated nor overproduced. In the tsKNRK line p21 was abundant at both permissive and non-permissive temperatures; however, its distribution was heterogeneous at the permissive temperature only. Observation of this array of cells indicates that the transformation-associated p21 distribution does not require overexpression of the gene, nor phosphorylation of the protein, nor the viral oncogene. Furthermore, it is reversible in the tsKNRK cells, and so appears to be highly correlated with acquisition of a transformed morphology. Accumulations of p21 occurred preferentially in subcellular locations similar to those where ruffles were observed by phase contrast microscopy and lamellar and villous extensions were observed by scanning electron microscopy (SEM). Since enhanced ruffling is a morphological correlate of transformation in a variety of cells, the distribution of p21 observed here may relate to its function as a transforming molecule.

Expression of ras cellular oncogenes during development of Drosophila melanogaster

The transcription patterns of three v-Ha-ras-related cellular oncogenes in Drosophila melanogaster were studied. Each gene coded for at least two distinct transcripts. The larger transcript of each gene was expressed at a similar abundance during the entire life cycle of fruit flies, whereas the shorter transcripts were much more abundant in embryonic stages than at later stages.

Biochemical properties of a highly purified v-rasH p21 protein overproduced in Escherichia coli and inhibition of its activities by a monoclonal antibody

The v-rasH oncogene of Harvey murine sarcoma virus encodes a 21,000-dalton p21 protein which has been expressed at a high level as a fusion protein in Escherichia coli. We have purified the p21 to over 90% in purity without the use of any detergent or protein denaturant. The purified p21 possesses full biochemical activities of GTP/GDP binding, autokinase, and GTPase. Scatchard analysis indicates a single class of binding sites with Kd values of 0.83 X 10(-8)M for GTP and 1.0 X 10(-8)M for GDP. The binding site can be specifically labeled with a [3H]GTP photoaffinity analog, P3-(4-azidoanilido)-5' GTP. To probe for the active center of p21, we used a battery of six monoclonal antibodies to p21 to examine their effects on p21 activities. We found that only one monoclonal antibody, Y13-259, was capable of inhibiting both GTP/GDP binding and autokinase enzymatic activities, suggesting that these p21 activities are related activities conferred by a single active center within the p21 molecule. These observations together with the recent finding that microinjection of the same monoclonal antibody into NIH 3T3 cells specifically blocks p21 in vivo function (Mulcahy et al., Nature [London] 313:241, 1985) strongly suggest that p21 in vitro activities are responsible for its cellular function.

ras Oncogene p21 expression is increased in premalignant lesions and high grade bladder carcinoma

ras Oncogene p21 antigen is present in the most superficial cells of the normal bladder urothelium, as demonstrated by immunohistochemical staining. The pattern and intensity of p21 staining of cells in epithelial hyperplasia and low grade bladder carcinoma were similar to that seen in the normal urothelium. In contrast, epithelial cells in "premalignant" (dysplastic) lesions and high grade carcinomas exhibited an intense staining reaction for p21 antigen. ras p21 may be a useful marker for the malignant potential of both premalignant lesions and carcinomas of the bladder.